Noncompetitive immunoassay optimized for pharmacokinetic assessments of biologically active efruxifermin

Abstract

Efruxifermin (EFX) is a homodimeric human IgG₁ Fc-FGF21 fusion protein undergoing investigation for treatment of liver fibrosis due to nonalcoholic steatohepatitis (NASH), a prevalent and serious metabolic disease for which there is no approved treatment. Biological activity of FGF21 requires its intact C-terminus, which enables binding to its obligate co-receptor β-Klotho on the surface of target cells. This interaction is a prerequisite for FGF21 signal transduction through its canonical FGF receptors: FGFR1c, 2c, and 3c. Therefore, the C-terminus of each FGF21 polypeptide chain must be intact, with no proteolytic truncation, for EFX to exert its pharmacological activity in patients. A sensitive immunoassay for quantification of biologically active EFX in human serum was therefore needed to support pharmacokinetic assessments in patients with NASH. We present a validated noncompetitive electrochemiluminescent immunoassay (ECLIA) that employs a rat monoclonal antibody for specific capture of EFX via its intact C-terminus. Bound EFX is detected by a SULFO-TAG™-conjugated, affinity purified chicken anti-EFX antiserum. The ECLIA reported herein for quantification of EFX demonstrated suitable analytical performance, with a sensitivity (LLOQ) of 20.0 ng/mL, to support reliable pharmacokinetic assessments of EFX. The validated assay was used to quantify serum EFX concentrations in a phase 2a study of NASH patients (BALANCED) with either moderate-to-advanced fibrosis or compensated cirrhosis. The pharmacokinetic profile of EFX was dose-proportional and did not differ between patients with moderate-to-advanced fibrosis and those with compensated cirrhosis. This report presents the first example of a validated pharmacokinetic assay specific for a biologically active Fc-FGF21 fusion protein, as well as the first demonstration of use of a chicken antibody conjugate as a detection reagent specific for an FGF21 analog.

Keywords: Efruxifermin; Electrochemiluminescence; Immunoassay; Non-alcoholic steatohepatitis; Pharmacokinetics.